RU49954U1 - MOBILE INSTALLATION FOR DISPOSAL OF COMBUSTIBLE WASTE BY THE BURNING METHOD - Google Patents

Abstract

The utility model relates to the field of neutralization of industrial and domestic combustible waste by burning and is a mobile unit for burning combustible waste, including and oily. A mobile installation for the disposal of combustible waste by the method of burning contains a mounting trolley, a removable combustion chamber, a cover with a discharge chamber, a spark-dispersion unit, an spark-retaining grid, a fan unit with an air duct. It is equipped with a removable exhaust gas cooling unit made in the form of a cylindrical chamber with a tangential air supply pipe mounted at an angle to the horizontal plane, with an inclination upward. The discharge chamber is made in the form of a cylindrical shell with a tangential air outlet pipe. The fan unit contains two fans with two outlet pipes with control flaps. One of the nozzles is connected to the exhaust gas unit, and the second to the discharge chamber. Fans are equipped with a speed controller. The combustion chamber is made with a removable bottom to remove residual combustion products. The unit is equipped with a removable exhaust gas heat recovery unit and a removable stand for the combustion chamber. The cover with the discharge chamber in the interface zone with the flange of the combustion chamber has a conical surface. The diameters of the exhaust vents of the discharge chamber are selected from the following ratio:

D ₃ > D ₂ > D ₁ where

D ₁ - the diameter of the upper gas outlet of the discharge chamber;

D ₂ - the diameter of the node sparking;

D ₃ - the diameter of the lower gas outlet of the discharge chamber

Description

The inventive utility model relates to the field of neutralization of industrial and domestic combustible waste by burning and is an installation for burning combustible waste, including oily such as oily rags and sawdust, waste oil and air filters, paper and wood waste, oil-saturated sorbents and other combustible materials.

The most effective scope of the installation for the elimination of local oil spills.

Known waste incinerator company Elastec (USA) type Smart Ash, as well as incinerator patent No. 2087803 class. F 23 G 5/00, the claimed 03.08.95, published in B.I. No. 23 08/20/97. For the prototype of the claimed utility model, an installation for burning organic waste of the “Fast and the Furious-1” type by the domestic company 000 “Ecoservice-Neftegaz” (Appendix 1) can be taken.

The Fast and the Furious-1 installation consists of the following main units:

-transport trolley;

- primary combustion chamber in the form of a standard steel barrel;

-block of 2 electric fans;

-Removable cover with air inlet unit and secondary combustion chamber;

- duct in the form of a metal hose.

The main element of the installation is a removable cover, which includes an air inlet assembly, a secondary combustion chamber and an exhaust gas pipe with a mesh web.

This setup works as follows.

In the primary chamber, combustible household waste is loaded from above. They are ignited using flammable material (as an option paper) and cover the barrel with a lid, then turn on the primary fan and after starting

waste burning include a second fan to ensure forced combustion.

Exhaust gases are removed through a removable lid equipped with a mesh cloth, burning of materials is carried out from top to bottom. When burning waste, the barrel is removed from the cart. The remains of the combustion process are removed by flipping the barrel, having previously removed the lid. In the process of burning, the waste is mixed periodically through the inspection window in the lid with a special stirring rod.

These installations have a number of significant drawbacks, of which the following are the main ones:

1) insufficient cooling of the exhaust gases, leading to an increased content of NOx;

2) lack of control over the combustion parameters (the temperature of the exhaust gases allows you to indirectly control their environmental friendliness);

3) the inconvenience of removing combustion products;

4) limited possibilities for regulating the combustion efficiency of various types of waste;

5) the location of the fan unit in the high temperature zone;

6) insufficient tightness of the connection of the combustion chamber with a removable cover.

The basis of the claimed utility model is the task of eliminating these shortcomings. In addition, it seems appropriate to provide for the proposed solution to utilize the heat of the exhaust gases. The solution to this problem is provided by the fact that the installation is equipped with a removable exhaust gas cooling unit and a temperature sensor mounted above the discharge chamber. In this case, the cooling unit is made in the form of a cylindrical chamber with a tangential air supply pipe. The latter is installed at an angle to the horizontal plane with an inclined top. A horizontal partition is made in the lower part of the injection chamber with an outlet for exhaust gases, on which a removable spark-scattering unit in the form of a horizontal circular partition is fixed on top, and a removable spark-holding lattice is installed in the upper part of the cooling unit. The discharge chamber is made in the upper part in the form of a cylindrical shell with a tangential air inlet pipe, and in the lower part in the form of a truncated cone with the upper part directed toward the combustion chamber, the air supply pipe being installed at an angle to the horizontal plane with an inclined downward slope. The fan unit is made in the form of two fans, united by a common discharge manifold, equipped with two output

nozzles with control flaps, one of the nozzles connected to the exhaust gas cooling unit, and the other to the discharge chamber. Both fans are equipped with speed controllers. Alternatively, the unit can be made of 3 fans, while two provide air supply to the discharge chamber.

The installation is equipped with an autonomous electric generator and a portable searchlight to illuminate the workplace.

To create better working conditions for the fan unit, a removable stand for the combustion chamber is provided for its separate installation on the ground.

The removable spark-scattering unit is made in the form of a horizontal partition. The combustion chamber is made with a removable bottom to remove residual combustion products.

To utilize the heat of the exhaust gases, a special removable unit is installed in the installation, which is installed above the discharge chamber to the cooling unit. The feasibility of the claimed utility model is proved by the successful domestic and foreign practice of using plants for the disposal of combustible waste by burning.

Technical features that are distinctive for the claimed utility model can be implemented using tools used in various fields of technology. They are necessary and sufficient to solve the above problem - the creation of a mobile installation for the disposal of combustible waste by the burning method, devoid of the above disadvantages inherent in known plants of this kind.

In the future, the claimed utility model is illustrated by an example of its implementation, schematically depicted in the accompanying drawings, in which:

Figure 1 - mobile installation for the disposal of combustible waste by burning in accordance with the claimed utility model;

Figure 2 - section along the lines I-I and II-II of the installation depicted in figure 1 (sections conditionally superimposed on each other);

Figure 3 - diagram of a removable unit for heat recovery of exhaust gases;

4 is a variant of the cover with a discharge chamber.

A mobile installation for the disposal of combustible waste by the method of burning contains a mounting trolley 1 (Fig. 1), a removable combustion chamber 2 in the form of a barrel, a cover 3 with a discharge chamber 4 (fixed to the combustion chamber by means of a quick-detachable connection), spark-dispersing unit 5, fan unit 6 with ducts.

The installation is equipped with a removable unit 7 for cooling the exhaust gas mounted above the injection chamber and an air stream B ₂ and a temperature sensor 8. The cooling unit is made in the form of a cylindrical chamber with a tangential

air supply pipe 9 mounted at an angle to the horizontal plane with an inclination up. In the lower part of the cooling unit 7, a horizontal partition 10 with an opening for exhaust gases is made, and in the upper part of the cooling unit, a removable spark-retaining lattice 11 is installed.

The discharge chamber 4 is made in the upper part in the form of a cylindrical shell with a tangential air supply pipe 12, and in the lower part - in the form of a truncated cone with an angle towards the combustion chamber 2. At the same time, the air supply pipe 12 is installed at an angle to the horizontal plane with an inclined downward slope.

The fan block 6 is made in the form of two fans 13 and 14, united by a common manifold, equipped with two outlet pipes 15 and 16 with control flaps 17, 18. In this case, the pipe 15 is connected to the cooling unit 7 of the exhaust gases, and the pipe 16 to the discharge chamber 4 Fans 13 and 14 are equipped with speed controllers of a known type.

The installation is equipped with an autonomous electric generator 19 and a portable searchlight (not shown). The combustion chamber 2 is made with a removable bottom 20 to remove residual combustion products.

The installation is as follows.

Before starting work, the removable combustion chamber 2 is removed from the trolley, the lid is opened and waste is loaded into the combustion chamber. A flammable material is laid on top, the lid is closed, and a flammable material is ignited by a known type of ignition device. After local ignition of the waste, the fan 14 is turned on with the control valve 18 as closed as possible and after the start of combustion, the second fan 13 is turned on, monitoring the temperature (sensor 8) and smoke quality.

When air is supplied to the tangential air duct (pipe) 12 (Fig. 1, 2) of the discharge chamber, taking into account the inclination of the pipe down, the untwisted downward air flow B ₁ (Fig. 2) moves down the periphery of the discharge chamber and reaches the edge of the hole in the lid and continues to spin spirals in the combustion chamber, reaching the surface of the waste, and providing a combustion process. In this case, a vacuum is created in the central part of the injection chamber, in connection with which the exhaust gases are removed from the combustion chamber 2, moving along the central part of the injection chamber, circling the spark diffuser. Leaving in the cooling chamber 7, the exhaust gases (Og) fall into a new rarefaction zone created by an upward swirling air stream B ₂ due to its tangential entry into the pipe 9 and being mixed with this stream, they are cooled and go into the chimney.

Given the high probability of different types and compositions of waste in one tab, it is possible to additionally control the air supply with shutters 17 and 18. At the end of the combustion process by the fans, the cooling process of the unit is accelerated. By opening the removable bottom, residual combustion products are removed from the combustion chamber.

For heat recovery of exhaust gases, the installation is equipped (see Fig. 3) with a removable block 21, in the form of a water-exhaust gas heat exchanger, which makes it possible to obtain hot water that is essential at oil spill response facilities. The water supply to the heat exchanger is carried out by the pump 22, for connecting the heat exchanger with the pump and the consumer, a quick-disconnect pipe 23 is used.

As an option (not shown), the heat exchanger can be made in the form of a container into which a removable combustion chamber is inserted, and the space between them is filled with water and its circulation is carried out by the pump.

In order to exclude thermal radiation from the combustion chamber to the fan unit, the installation is equipped with a removable stand 24 for installing the combustion chamber on the ground.

Considering that in practice, 200 l barrels with a removable upper bottom are used as an incineration chamber, in order to better seal the lid - upper flange of the barrel connection without additional seals, a removable cover is in the interface with the upper rim of the barrel (inner diameter of the chamber flange combustion), has a conical surface 25, which also allows you to compensate for possible deviations of the inner diameter of the barrel from the nominal, and not violate the tightness. In addition, the conical surface of the lid allows a tight connection to the combustion chamber even with some loss of the circle geometry by the upper flange of the barrel.

The diameters of the exhaust vents of the discharge chamber are selected from the following ratio:

D ₃ > D ₂ > D ₁ , where

D ₁ - the diameter of the upper gas outlet of the discharge chamber;

D ₂ - the diameter of the node sparking;

D ₃ - the diameter of the lower gas outlet of the discharge chamber.

Claims (11)

1. A mobile installation for the disposal of combustible waste by the method of burning, consisting of a mounting trolley, a removable combustion chamber, a cover with a discharge chamber, a spark-dispersion unit and a spark-retaining grill, a fan unit with an air duct, characterized in that it is equipped with a removable exhaust cooling unit mounted above the discharge chamber gases by air flow and a temperature sensor, while the cooling unit is made in the form of a cylindrical chamber with a tangential air supply pipe mounted at an angle ohm to the horizontal plane with an inclination upward, and in the upper part of the cooling unit there is a removable spark-retaining grill. 2. Installation according to claim 1, characterized in that the discharge chamber is made in the upper part in the form of a cylindrical shell with a tangential air supply pipe, and in the lower part in the form of a truncated cone, with an angle towards the combustion chamber, the air supply pipe being installed at an angle to horizontal plane with an inclination down. 3. Installation according to claim 1, characterized in that the fan unit is made in the form of two fans, united by a common discharge manifold, equipped with two outlet pipes with control flaps, one of the pipes connected to the exhaust gas cooling unit, and the second to the discharge chamber. 4. Installation according to claim 3, characterized in that the fans are equipped with speed controllers. 5. Installation according to claim 1, characterized in that it is equipped with an autonomous electric generator and a portable searchlight. 6. Installation according to claim 1, characterized in that the combustion chamber is made with a removable bottom to remove residual combustion products. 7. Installation according to claim 1, characterized in that it is equipped with a removable unit for heat recovery of exhaust gases mounted above the discharge chamber or on a removable combustion chamber. 8. The installation according to claim 7, characterized in that the exhaust gas heat recovery unit is made in the form of a heat exchanger, and is also equipped with a circulation water pump and a quick-disconnect pipe for connecting the pump to a water tank, with a heat exchanger and a consumer. 9. Installation according to claim 1, characterized in that it is equipped with a removable stand under the combustion chamber for its installation on the ground. 10. Installation according to claim 1, characterized in that the lid with the discharge chamber in the mating zone with the inner diameter of the flange of the combustion chamber has a conical surface. 11. Installation according to claim 1, characterized in that the diameters of the exhaust holes of the discharge chamber are selected from the following ratio: D ₃ > D ₂ > D ₁ where D ₁ is the diameter of the upper gas outlet of the discharge chamber; D ₂ - the diameter of the node sparking; D ₃ - the diameter of the lower gas outlet of the discharge chamber.